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Cortical_Axon_I_Kd.mod
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Cortical_Axon_I_Kd.mod
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TITLE Potassium D-Current for Cortical Neuron Axon
COMMENT
Model Reference:
Foust, A.J., Yu, Y., Popovic, M., Zecevic, D. and McCormick, D.A.,
2011. "Somatic membrane potential and Kv1 channels control spike
repolarization in cortical axon collaterals and presynaptic boutons."
Journal of Neuroscience, 31(43), pp.15490-15498.
Implemented by John Fleming - john.fleming@ucdconnect.ie - 06/12/18
Edits:
ENDCOMMENT
UNITS {
(mV) = (millivolt)
(mA) = (milliamp)
(S) = (siemens)
}
NEURON {
SUFFIX cortical_axon_i_kd
USEION k WRITE ik : Using k ion, treat the reversal potential as a parameter and write to ik so the total k current can be tracked
RANGE g_Kd, i_Kd : Potassium current, specific conductance and equilibrium potential
}
PARAMETER {
ek = -90 (mV)
i_Kd = 0.0 (mA/cm2) : Parameter to record this current separately to total sodium current
g_Kd = 0.6e-3 (S/cm2)
tau_m = 1 (ms)
tau_h = 1500 (ms)
V_half_m = -43 (mV)
V_half_h = -67 (mV)
q_m = 8
q_h = 7.3
Q_s = 3.209 : Temperature rescaling - Q_10 = 2.3 => Q_s = (Q_10)^((37-23)/10) = 3.209
}
ASSIGNED {
v (mV)
ik (mA/cm2)
m_inf
h_inf
}
STATE {
m h
}
BREAKPOINT {
SOLVE states METHOD cnexp
ik = g_Kd*m*h*(v - ek)
i_Kd = ik : Record i_Kv (just this potassium current) to check it is working
}
UNITSOFF
INITIAL {
settables(v)
m = m_inf
h = h_inf
}
DERIVATIVE states {
settables(v)
m' = (m_inf-m)/tau_m
h' = (h_inf-h)/tau_h
}
PROCEDURE settables(v) {
TABLE m_inf, h_inf FROM -100 TO 100 WITH 400
m_inf = 1-(1/(1+exp((v-V_half_m)/q_m)))
h_inf = 1-(1/(1+exp((v-V_half_h)/q_h)))
}
UNITSON